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Group 1 (N = 30) and group 2 (N = 22) of healthy volunteers participated in the experiment. EEG registration took place while the examinees were in the resting states: with closed eyes; with opened eyes; with opened eyes and being under exposure to TV channel noises (white noise). Group 1 had also to fulfill a task to count randomly appearing symbols on a screen and group 2 had to fulfill a task to find an image in the noises. Averaged values of EEG power in each of the derivations in each of the derivations were calculated for an every examinee and for each of the states. The estimations were done in delta, theta, alpha1, alpha2, beta1, beta2, gamma frequency bands. The received results demonstrate that exposure to unstructured non-informative video noise can lead to significant changes of EEG power in a variety of frequency bands which are most prominent in the band alpha2. The changes are topically widespread, reflecting systemic changes in corresponding brain mechanisms, but are much less intensive if compared to changes between resting states with opened and closed eyes.

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Electroencephalograms (EEG) were recorder in 19 standard derivations in 88 healthy subjects, while they were in the states: rest with eyes open; memorization (learning) of verbal bilingual semantic pairs (Latin and Russian languages); the retrieval of the rote information from memory (control). We compared estimates of EEG coherence in these states for the frequency bands theta (4-7 Hz), alpha-1 (7-10 Hz), alpha-2 (10-13 Hz), beta-1 (13-18 Hz), beta-2 (18-30 Hz), gamma (30-40 Hz). When compared with the rest most strongly expressed: for memorization a decrease of coherence in the pairs of derivations from frontal and central areas of the cortex in the EEG frequency bands; for retrieval an increase of coherence in interhemispheric derivation pairs of pariental-occipital region in majority of the frequency bands. For the retrieval also increases of coherence in the beta2 and gamma bands, along with coherence decreases at low frequencies take place in pairs formed by derivations from the parieto-occipital region with derivations from the frontal and the central ones. Dynamics of EEG coherence in comparisons of memorization and retrieval from the rest and each are expressed significantly more in the interhemispheric and crosshemispheric pairs of derivations than in the intrahemispheric pairs. Revealed topographic specificity of the dynamics of EEG coherence by changing the states is considered in terms of ideas about cognitive-specific forms of sustained goal-directed mental attention.

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The capacity of a specially designed neural network for familiarity recognition and recollection has been compared. The recognition is based on calculating some quantity interpreted as the familiarity of a pattern. The familiarity is calculated using a modified Hopfield energy function in which the value of the inner sum is replaced by the sign of this value. This replacement makes the calculation of familiarity compatible with the basic dynamic equations of the Hopfield network and is reduced actually to the calculation of the scalar product of the neural network state vectors at two successive time steps.

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The tip-of-the-tongue state, or memory blocking, has been investigated from the point of view of possibilities of its neural network modeling. The results of neuropsychological and neurobiological studies on memory blocking have been reviewed, and basic problems whose solution could contribute to the comprehension of this phenomenon have been formulated. One of such questions is the existence of a paradoxical discrepancy between the subjective assurance that a pattern is familiar and the impossibility to recollect it fully. To explain this discrepancy, we propose a biologically plausible neural network model of recognition demonstrating a radical superiority of the capacity for the recognition of a pattern as compared with its recollection.

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We consider a neural network model of age-related cognitive changes in aging brain based on Hopfield network with a sigmoid function of neuron activation. Age is included in the activation function as a parameter in the form of exponential rate denominator, which makes it possible to take into account the weakening of interneuronal links really observed in the aging brain. Analysis of properties of the Lyapunov function associated with the network shows that, with increasing parameter of age, its relief becomes smoother and the number of local minima (network attractors) decreases. As a result, the network gets less frequently stuck in the nearest local minima of the Lyapunov function and reaches a global minimum corresponding to the most effective solution of the cognitive task. It is reasonable to assume that similar changes really occur in the aging brain. Phenomenologically, these changes can be manifested as emergence in aged people of a cognitive quality such as wisdom i.e. ability to find optimal decisions in difficult controversial situations, to distract from secondary aspects and to see the problem as a whole.

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The article is devoted to commemoration of full member of Russian Academy of Medical Sciences, Oleg Andreevich Adrianov, who would have celebrated his 75-th anniversary in 1998. O. S. Adrianov, author of numerous works on physiology and morphology of central nervous system, in the recent years of his was studying the problem of the processes relationship at macro and micro levels of brain organization. Further to the concept created by O.S. Adrianov, data on action of two peptides: delta-sleep and tafcine, on behavior, neurophysiological and neurochemical processes have been consolidated. Experimental data were obtained for rabbits, cats, and dogs, both intact and in the state of pathology (psychomotoric excitement, bradykinesia, penicillin epilepsy). Impact of peptides on convergation processes is discussed: peptide of delta-sleep depresses reactions of brain structures to photo- and phono-stimulation, and activates the serotoninergic system in general; tafcine enforces the convergation processes and activates the dopaminergic system.

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The complex neurophysiological, biochemical, and histochemical investigation carried out in dogs, cats, rabbits, and rats revealed the effects of taftsin (300 mcg/kg) at the macro- and microlevels within different periods (30 and 75 min) after its intraperitoneal injection. It was shown that after taftsin administration the configuration of evoked potentials was modified, especially, in the visual cortex and the nucleus accumbens. The absolute power of EEG spectra increased in a wide range of brain structures under consideration. Catecholaminergic activity was augmented and serotonin activity suppressed in the sensorimotor cortex and caudate nucleus, the indices of the protein metabolism reciprocally changed in the cortical and subcortical structures. Comparison of taftsin effects at different levels suggests that such effects are mainly caused by the interaction between the dopamine-containing brain structures. The consequence of taftsin administration can be probably interpreted as an intervention into the processes of visual perception.

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In dogs, the influence of chronic administration of the agonist (L-DOPA) and antagonist (haloperidol) of central dopamine processes on functional interrelations of the brain structures was studied by dynamics of evoked potentials. Cortical-subcortical relations during formation of a motor habit are described in intact animals: basic functional regimes of central integration are singled out--sensory and motor one. Change of their equilibrium is the general principle of systemic reconstructions elicited by differently directed interferences in dopamine processes. Against the background of chronic administration of haloperidol, a sensory-motor imbalance is formed due to uniform functioning of the basal ganglia as analyzer of the signal stimulus; simultaneously the utilization of afferentation elicited by the movement is limited. A variant is revealed of intercentral relations corresponding to bradykinesia development. Under chronic administration of L-DOPA, interrelations of sensory and motor regimes become competitive; basal ganglia are provided with nontypical kinds of afferentations. Intercentral relations variant is examined corresponding to development of psycho-motor excitation. The results are discussed in connection with pathogenic and compensatory mechanisms of some symptoms of parkinsonism and schizophrenia.

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A capacity for anticipating reactions realizes itself in the course of systemic activity formation, events. There is no doubt that probability of prediction proves to be possible on the basis of formation in brain structures of certain systems of anticipating excitations. Dynamics of EP analogues is an objective criterion of evaluation of the anticipating reaction central mechanisms. The term "EP analogue" conveys the phenomenon of reproduction of the EP configurations in intersignal spans. On the basis of analysis of EP analogue dynamics, we succeeded in following the process of brain structure organization into the anticipating intercentral integrations and also in elucidating the role that different afferentation redistributions play in this process by their functional significance.

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The character of evoked potentials (EPs) dynamics to signal light stimulus during elaboration of avoidance reaction, allows to assert that during formation of adaptive activity functional balance is established of sensory and integrative-triggering brain parts or functional balance of "motor" and "sensory" integration regimes. Each of the studied subcortical structures is characterized by simultaneous but specific functioning both in the motor and sensory regimes; such conclusion is based on different dynamics of their EPs parameters: the changes of ones correspond to EPs dynamics in the visual cortical area, of the others--in the motor area. During chronic haloperidol administration, the reorganizations of intercentral relations are observed in 10--12 days after the beginning of drug administration. They may be considered as a succession of disturbances of functional balance between "sensory" and "motor" integration regimes: at first the sensory regime domination appears in which subcortical structures are chiefly and uniformly involved (ncd, pall and n. acc.); "motor" regime is weakened; then, as a result, a distortion of the "motor" regime of integration takes place. In this case a bradykinesia is developed.

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